The C terminal region keeps the H ATPase in a low activity state via an interaction with the catalytic domain under normal conditions, and phosphorylation of the penultimate Thr and subsequent binding of the 14 3 3 protein to the phosphorylated penultimate Thr in response to physiological signals results in activation of the H ATPase . As a physiological signal, blue light is known to activate the H ATPase via phosphorylation of the penultimate Thr in stomatal guard cells . Moreover, it has been reported that Suc and phytohormones, such as auxin and gibberellic acid, induce phosphorylation of the penultimate Thr in seedlings and culture cells from Arabidopsis . In addition, osmotic shock is most likely to induce phosphorylation of the penultimate Thr of the H ATPase in tomato culture cells . These results indicate that many physiological signals regulate H ATPase activity via regulation of the phosphorylation status of the penultimate Thr of H ATPase and that phosphorylation of the penultimate Thr is a major common regulatory mechanism of H ATPase in vascular plants .
It should be noted that the pT H ATPase has been reported to be phosphorylated at multiple sites in addition to the penultimate Thr in vascular plants . The C terminus of non pT H ATPase is also thought to be important for the regulation of its activity. In the yeast Saccharomyces cerevisiae, it has been reported that phosphorylation of two tandemly positioned residues in the C terminus activates the H ATPase in response to Glc , indicating that veliparib structure the fungal H ATPase is regulated in a different manner from the pT H ATPase. Posttranslational regulation of the H ATPases in red and green algae remains unresolved. In this study, we performed molecular characterization of plasma membrane H ATPase in the liverwort Marchantia polymorpha as a nonvascular plant bryophyte, which represents the most basal lineage of extant land plants. We found that M. polymorpha expresses both pT H ATPase and non pT H ATPase. We further provide evidence that the pT H ATPase in M.
polymorpha is regulated by phosphorylation of its penultimate Diosmetin Thr in response to physiological signals, such as light, Suc, and osmotic shock. RESULTS Identification of cDNA Sequences of Plasma Membrane H ATPase in M. polymorpha We carried out a BLAST search against M. polymorpha ESTs to find sequences with similarity to the typical plasma membrane H ATPase in Arabidopsis, AHA2. Individual ESTs were derived from thalli and protonemata of M. polymorpha, male accession Takaragaike 1 . We found eight H ATPase homologs, designated MpHA1 to MpHA8 . All isoforms highly conserve a characteristic sequence, GDGVNDAPALKKA, in the catalytic domain of the P type ATPase and show high sequence identity with AHA2 , providing strong support to our claim that these isoforms are functional homologs as plasma membrane H ATPases.